Saved in:
| Main Authors: | , , |
|---|---|
| Format: | Dataset Open Access |
| Language: | en |
| Published: |
PANGAEA
2022
|
| Subjects: | |
| Online Access: | https://doi.org/10.1594/PANGAEA.943431 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1867171032129863680 |
|---|---|
| author | Dengler, Marcus Sommer, Stefan Krahmann, Gerd |
| author_facet | Dengler, Marcus Sommer, Stefan Krahmann, Gerd |
| collection | Datos científicos de ciencias marinas y ambientales |
| contents | Seabird 911plus systems equipped with dual temperature-conductivity-oxygen sensors were employed. All systems had a 24-bottle water sampling rosette with 10 l Niskin bottles. Water sampling, processing, and calibration followed GO-SHIP recommendations (Swift, 2010; McTaggart et al., 2010; Uchida et al., 2010) and included the recommended steps Data Conversion, Sensor Time-Alignment, Creation of Bottle Files, Outlier Removal, Pressure Sensor Filtering, Conductivity Cell Thermal Mass Correction, Ship Roll Correction and Deck Offset Correction by Loop Editing, as well as Derivation of Calculated Properties. After these steps, conductivity and oxygen readings were calibrated against values determined with salinometry and Winkler titration , respectively. Finally, the downcast data was averaged over 1 dbar wide intervals. An independent upcast calibration was used to obtain calibrated CTDO values coincident with the discrete water samples. |
| format | Dataset Open Access |
| id | pangaea_https___doi_org_10_1594_PANGAEA_943431 |
| institution | PANGAEA |
| language | en |
| publishDate | 2022 |
| publisher | PANGAEA |
| record_format | pangaea |
| spellingShingle | Physical oceanography (CTD) during METEOR cruise M156 Dengler, Marcus Sommer, Stefan Krahmann, Gerd Canarias Sea; CTD/Rosette; CTD-RO; DATE/TIME; Density, sigma, in situ; DEPTH, water; Event label; Fluorescence; LATITUDE; LONGITUDE; M156; M156_106-1; M156_107-1; M156_1-1; M156_11-1; M156_111-1; M156_113-1; M156_114-1; M156_125-1; M156_128-1; M156_130-1; M156_13-1; M156_132-1; M156_135-1; M156_137-1; M156_138-1; M156_142-1; M156_143-1; M156_145-1; M156_147-1; M156_149-1; M156_15-1; M156_151-1; M156_155-1; M156_157-1; M156_158-1; M156_160-1; M156_161-1; M156_165-1; M156_21-1; M156_22-1; M156_26-1; M156_3-1; M156_32-1; M156_34-1; M156_37-1; M156_43-1; M156_46-1; M156_50-1; M156_56-1; M156_58-1; M156_59-1; M156_60-1; M156_61-1; M156_66-1; M156_67-1; M156_69-1; M156_70-1; M156_7-1; M156_75-1; M156_77-1; M156_78-1; M156_79-1; M156_87-1; M156_90-1; M156_91-1; M156_93-1; M156_94-1; M156_97-1; M156_98-1; Meteor (1986); Nitrogen oxide; North Atlantic Ocean; Organic matter, colored dissolved; Oxygen; Pressure, water; REEBUS; Role of Eddies for the Carbon Pump in Coastal upwelling Areas; Salinity; Sample code/label; Sound velocity in water; Temperature, water; Turbidity (Nephelometric turbidity unit) Seabird 911plus systems equipped with dual temperature-conductivity-oxygen sensors were employed. All systems had a 24-bottle water sampling rosette with 10 l Niskin bottles. Water sampling, processing, and calibration followed GO-SHIP recommendations (Swift, 2010; McTaggart et al., 2010; Uchida et al., 2010) and included the recommended steps Data Conversion, Sensor Time-Alignment, Creation of Bottle Files, Outlier Removal, Pressure Sensor Filtering, Conductivity Cell Thermal Mass Correction, Ship Roll Correction and Deck Offset Correction by Loop Editing, as well as Derivation of Calculated Properties. After these steps, conductivity and oxygen readings were calibrated against values determined with salinometry and Winkler titration , respectively. Finally, the downcast data was averaged over 1 dbar wide intervals. An independent upcast calibration was used to obtain calibrated CTDO values coincident with the discrete water samples. |
| title | Physical oceanography (CTD) during METEOR cruise M156 |
| topic | Canarias Sea; CTD/Rosette; CTD-RO; DATE/TIME; Density, sigma, in situ; DEPTH, water; Event label; Fluorescence; LATITUDE; LONGITUDE; M156; M156_106-1; M156_107-1; M156_1-1; M156_11-1; M156_111-1; M156_113-1; M156_114-1; M156_125-1; M156_128-1; M156_130-1; M156_13-1; M156_132-1; M156_135-1; M156_137-1; M156_138-1; M156_142-1; M156_143-1; M156_145-1; M156_147-1; M156_149-1; M156_15-1; M156_151-1; M156_155-1; M156_157-1; M156_158-1; M156_160-1; M156_161-1; M156_165-1; M156_21-1; M156_22-1; M156_26-1; M156_3-1; M156_32-1; M156_34-1; M156_37-1; M156_43-1; M156_46-1; M156_50-1; M156_56-1; M156_58-1; M156_59-1; M156_60-1; M156_61-1; M156_66-1; M156_67-1; M156_69-1; M156_70-1; M156_7-1; M156_75-1; M156_77-1; M156_78-1; M156_79-1; M156_87-1; M156_90-1; M156_91-1; M156_93-1; M156_94-1; M156_97-1; M156_98-1; Meteor (1986); Nitrogen oxide; North Atlantic Ocean; Organic matter, colored dissolved; Oxygen; Pressure, water; REEBUS; Role of Eddies for the Carbon Pump in Coastal upwelling Areas; Salinity; Sample code/label; Sound velocity in water; Temperature, water; Turbidity (Nephelometric turbidity unit) |
| url | https://doi.org/10.1594/PANGAEA.943431 |